Abstract:
This dataset is a spreadsheet containing plant species coverage for the canopies of vegetation plots on Macquarie Island in the summers of 2008/09 and 2009/10. It was collected as part of AAS 3095, for Phillippa Bricher's PhD thesis.

350 sites were chosen using a proportional stratified random sampling protocol. We stratified Macquarie Island into seven relatively homogeneous landform classes ... using an unsupervised fuzzy c-means classification based on variables derived from a 5 m digital elevation model (DEM) and a 2.4 m resolution orthorectified multispectral QuickBird satellite image, captured 15 March 2005. The digital elevation model is described by the metadata record 'Macquarie Island AIRSAR DEM (Digital Elevation Model)' with Entry ID: macca_dem_gis. The satellite image was provided by Dr Arko Lucieer of the University of Tasmania.

Elevation, slope, wetness index, solar radiation and surface curvature were calculated from the DEM, and a Normalised Difference Vegetation Index was calculated from the satellite image. The proportion of sites in each land form class was determined on the basis of three criteria: area; standard deviation of the NDVI (as a proxy for chlorophyll levels); and a subjective assessment of the likelihood of significant vegetation change. Of the 350 random sites, 288 were visited over the two seasons. The majority of the non-visited sites were inaccessible because they were either on steep slopes or close to breeding seabirds. A few sites were not visited due to time constraints.

The dataset also includes data from 54 sites that had been previously sampled as part of ongoing vegetation studies under AAS 3095 or AAS 1015 and 8 sites purposely selected to capture rare plant communities. 72 sites were visited in both seasons to monitor inter-annual change. The table below shows the number of sites in each category visited in the two field seasons.

At each site, a 10 x 10 m plot was laid out and a vertical photograph taken of each corner from a height of 2.7 m. Each photograph covers an area approximately 2.9 x 4.3 m. For each site, the photographs cover a total of 49.9 m2, or half the plot. A point intercept method was used to estimate percentage cover for each cover class using Coral Point Count (CPCe) software. 100 random points were laid over each photograph, and the cover class under each point was manually identified. Cover classes for the photographs are shown in the data dictionary (file_name.csv). These classes include most vascular plant species (two taxa were identified only to genus-level); and higher-order classes for bryophytes, fungi, algae, lichens, and bare ground. Percentage cover was calculated for all cover classes for each site, and is presented in this dataset.

A data dictionary (available for download with the dataset) describes the fields in the main spreadsheet.

This dataset was collected as part of AAS projects 3095 and 3130. More specifically it relates to:

3095 - Objective 1 Quantify change in terrestrial ecosystems at a range of spatial and temporal scales on Heard and McDonald Islands and Macquarie Island.

3130 - Objective 1 and 5 Collate and collect spatial data in order to establish a baseline map of, and detect changes in vegetation communities on the Windmill Islands and Macquarie Island. Combine detailed plot-scale data and field photographs with terrain information and high-resolution satellite imagery to identify and map changes in both plant communities and plant stress more efficiently.

Quality
Cover classes were all assigned and extensively checked by Phillippa Bricher. However, the technique likely results in the number of species per plot being under-reported, especially for species commonly found beneath the canopy. The photographs cover approximately half the area of the plot, and 400 point observations are taken of those photographs. Rare or sub-canopy species are frequently ... excluded.

All locations were recorded using a Trimble Pro XH single-frequency differential GPS. However, the Geoscience Australia MAC1 base station was non-functional for much of the 2008-09 field season, so positions were corrected against the HOB2 base station, located in Hobart, when MAC1 data was unavailable. Corrections made on a 1500 km baseline did little to improve the accuracy of the positions. Not all positions could be corrected. Where a correction was possible, mean horizontal position was 2.26 m. Conservatively, it is reasonable to assume that locations are accurate to less than 5 m.

Access Constraints
These data are publicly available for download from the provided URL.